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Identification of sttH Expressing the Novel Halogenase Enzymes from pseudomonas st.
Byongson YI,Haenggeun CHA,Youjung KONG,Hyeji JIN,Yubin JEON,Byeonguk LEE,Dogyeong KIM,HyunA PARK,Jeongchan LEE,Sang-Kyu JUNG,Kwon-Young CHOI,Byung-Gee KIM,Yung-Hun YANG,Kyungmoon PARK,See-Hyoung PARK 한국생물공학회 2022 한국생물공학회 학술대회 Vol.2022 No.9
Jeon Yubin,Jin HyeJi,Kong Youjung,Cha Haeng-Geun,Lee Byung Wook,Yu Kyungjae,Yi Byongson,Kim Hee-Taek,Joo Jeong Chan,Yang Yung-Hun,Lee Jongbok,Jung Sang-Kyu,Park See-Hyoung,Park Kyungmoon 한국미생물·생명공학회 2023 Journal of microbiology and biotechnology Vol.33 No.8
Poly(3-hydroxybutyrate) (PHB) is a biodegradable and biocompatible bioplastic. Effective PHB degradation in nutrient-poor environments is required for industrial and practical applications of PHB. To screen for PHB-degrading strains, PHB double-layer plates were prepared and three new Bacillus infantis species with PHB-degrading ability were isolated from the soil. In addition, phaZ and bdhA of all isolated B. infantis were confirmed using a Bacillus sp. universal primer set and established polymerase chain reaction conditions. To evaluate the effective PHB degradation ability under nutrient-deficient conditions, PHB film degradation was performed in mineral medium, resulting in a PHB degradation rate of 98.71% for B. infantis PD3, which was confirmed in 5 d. Physical changes in the degraded PHB films were analyzed. The decrease in molecular weight due to biodegradation was confirmed using gel permeation chromatography and surface erosion of the PHB film was observed using scanning electron microscopy. To the best of our knowledge, this is the first study on B. infantis showing its excellent PHB degradation ability and is expected to contribute to PHB commercialization and industrial composting.